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The significant contribution of stochastic forcing to nonlinear energy transfer in resolvent analysis
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2025Publisher:Elsevier BV
Authors: Youhua Wang; Ting Wu; Guowei He;
doi: 10.1016/j.taml.2024.100521 , 10.60692/xa1yy-fkt20 , 10.60692/cdkn6-fzb36
doi: 10.1016/j.taml.2024.100521 , 10.60692/xa1yy-fkt20 , 10.60692/cdkn6-fzb36
La transferencia de energía no lineal se representa a través de la viscosidad de Foucault y el forzamiento estocástico en el marco del análisis de disolventes. Investigaciones previas estiman la contribución del operador de resolvente mejorado con viscosidad parásita a la transferencia de energía no lineal. El presente artículo estima la contribución del forzamiento estocástico a la transferencia de energía no lineal y demuestra que la contribución del forzamiento estocástico no puede ignorarse. Estos resultados se logran comparando numéricamente el operador de resolvente mejorado con viscosidad parásita y el forzamiento estocástico con la transferencia de energía no lineal en flujos de canales turbulentos. Además, los resultados numéricos indican que los operadores de resolventes compuestos pueden mejorar la predicción de la transferencia de energía no lineal. Le transfert d'énergie non linéaire est représenté par la viscosité tourbillonnaire et le forçage stochastique dans le cadre de l'analyse des résolvants. Des investigations antérieures ont estimé la contribution de l'opérateur résolvant à viscosité de Foucault améliorée au transfert d'énergie non linéaire. Le présent article estime la contribution du forçage stochastique au transfert d'énergie non linéaire et démontre que la contribution du forçage stochastique ne peut être ignorée. Ces résultats sont obtenus en comparant numériquement l'opérateur résolvant à viscosité de Foucault améliorée et le forçage stochastique avec le transfert d'énergie non linéaire dans les écoulements de canaux turbulents. En outre, les résultats numériques indiquent que les opérateurs de résolvant composite peuvent améliorer la prédiction du transfert d'énergie non linéaire. Nonlinear energy transfer is represented through eddy viscosity and stochastic forcing within the framework of resolvent analysis. Previous investigations estimate the contribution of eddy-viscosity-enhanced resolvent operator to nonlinear energy transfer. The present article estimates the contribution of stochastic forcing to nonlinear energy transfer and demonstrates that the contribution of stochastic forcing cannot be ignored. These results are achieved by numerically comparing the eddy-viscosity-enhanced resolvent operator and stochastic forcing with nonlinear energy transfer in turbulent channel flows. Furthermore, the numerical results indicate that composite resolvent operators can improve the prediction of nonlinear energy transfer. يتم تمثيل نقل الطاقة غير الخطية من خلال اللزوجة الدوامية والتأثير العشوائي في إطار التحليل المحلل. تقدر التحقيقات السابقة مساهمة مشغل المحلول المعزز بالدوامة واللزوجة في نقل الطاقة غير الخطية. تقدر هذه المقالة مساهمة التأثير العشوائي في نقل الطاقة غير الخطية وتوضح أنه لا يمكن تجاهل مساهمة التأثير العشوائي. يتم تحقيق هذه النتائج من خلال المقارنة العددية لمشغل المحلول المحسن باللزوجة الدوامية والتأثير العشوائي مع نقل الطاقة غير الخطية في تدفقات القنوات المضطربة. علاوة على ذلك، تشير النتائج العددية إلى أن مشغلي المحلول المركب يمكنهم تحسين التنبؤ بنقل الطاقة غير الخطية.
Theoretical and Appl...arrow_drop_down
Theoretical and Applied Mechanics Letters
Article . 2025 . Peer-reviewed
License: CC BY
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Theoretical and Applied Mechanics Letters
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https://dx.doi.org/10.60692/xa...
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Theoretical and Appl...arrow_drop_down
Theoretical and Applied Mechanics Letters
Article . 2025 . Peer-reviewed
License: CC BY
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Theoretical and Applied Mechanics Letters
Article . 2025
Data sources: DOAJ
https://dx.doi.org/10.60692/xa...
Other literature type . 2024
Data sources: Datacite
https://dx.doi.org/10.60692/cd...
Other literature type . 2024
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citeCite
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The significant contribution of stochastic forcing to nonlinear energy transfer in resolvent analysis
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2025Publisher:Elsevier BV
Authors: Youhua Wang; Ting Wu; Guowei He;
doi: 10.1016/j.taml.2024.100521 , 10.60692/xa1yy-fkt20 , 10.60692/cdkn6-fzb36
doi: 10.1016/j.taml.2024.100521 , 10.60692/xa1yy-fkt20 , 10.60692/cdkn6-fzb36
La transferencia de energía no lineal se representa a través de la viscosidad de Foucault y el forzamiento estocástico en el marco del análisis de disolventes. Investigaciones previas estiman la contribución del operador de resolvente mejorado con viscosidad parásita a la transferencia de energía no lineal. El presente artículo estima la contribución del forzamiento estocástico a la transferencia de energía no lineal y demuestra que la contribución del forzamiento estocástico no puede ignorarse. Estos resultados se logran comparando numéricamente el operador de resolvente mejorado con viscosidad parásita y el forzamiento estocástico con la transferencia de energía no lineal en flujos de canales turbulentos. Además, los resultados numéricos indican que los operadores de resolventes compuestos pueden mejorar la predicción de la transferencia de energía no lineal. Le transfert d'énergie non linéaire est représenté par la viscosité tourbillonnaire et le forçage stochastique dans le cadre de l'analyse des résolvants. Des investigations antérieures ont estimé la contribution de l'opérateur résolvant à viscosité de Foucault améliorée au transfert d'énergie non linéaire. Le présent article estime la contribution du forçage stochastique au transfert d'énergie non linéaire et démontre que la contribution du forçage stochastique ne peut être ignorée. Ces résultats sont obtenus en comparant numériquement l'opérateur résolvant à viscosité de Foucault améliorée et le forçage stochastique avec le transfert d'énergie non linéaire dans les écoulements de canaux turbulents. En outre, les résultats numériques indiquent que les opérateurs de résolvant composite peuvent améliorer la prédiction du transfert d'énergie non linéaire. Nonlinear energy transfer is represented through eddy viscosity and stochastic forcing within the framework of resolvent analysis. Previous investigations estimate the contribution of eddy-viscosity-enhanced resolvent operator to nonlinear energy transfer. The present article estimates the contribution of stochastic forcing to nonlinear energy transfer and demonstrates that the contribution of stochastic forcing cannot be ignored. These results are achieved by numerically comparing the eddy-viscosity-enhanced resolvent operator and stochastic forcing with nonlinear energy transfer in turbulent channel flows. Furthermore, the numerical results indicate that composite resolvent operators can improve the prediction of nonlinear energy transfer. يتم تمثيل نقل الطاقة غير الخطية من خلال اللزوجة الدوامية والتأثير العشوائي في إطار التحليل المحلل. تقدر التحقيقات السابقة مساهمة مشغل المحلول المعزز بالدوامة واللزوجة في نقل الطاقة غير الخطية. تقدر هذه المقالة مساهمة التأثير العشوائي في نقل الطاقة غير الخطية وتوضح أنه لا يمكن تجاهل مساهمة التأثير العشوائي. يتم تحقيق هذه النتائج من خلال المقارنة العددية لمشغل المحلول المحسن باللزوجة الدوامية والتأثير العشوائي مع نقل الطاقة غير الخطية في تدفقات القنوات المضطربة. علاوة على ذلك، تشير النتائج العددية إلى أن مشغلي المحلول المركب يمكنهم تحسين التنبؤ بنقل الطاقة غير الخطية.
Theoretical and Appl...arrow_drop_down
Theoretical and Applied Mechanics Letters
Article . 2025 . Peer-reviewed
License: CC BY
Data sources: Crossref
Theoretical and Applied Mechanics Letters
Article . 2025
Data sources: DOAJ
https://dx.doi.org/10.60692/xa...
Other literature type . 2024
Data sources: Datacite
https://dx.doi.org/10.60692/cd...
Other literature type . 2024
Data sources: Datacite
linkLink to
shareshareShare
citeCite
addClaim
Please grant OpenAIRE to access and update your ORCID works.
This Research product is the result of merged Research products in OpenAIRE.

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Theoretical and Appl...arrow_drop_down
Theoretical and Applied Mechanics Letters
Article . 2025 . Peer-reviewed
License: CC BY
Data sources: Crossref
Theoretical and Applied Mechanics Letters
Article . 2025
Data sources: DOAJ
https://dx.doi.org/10.60692/xa...
Other literature type . 2024
Data sources: Datacite
https://dx.doi.org/10.60692/cd...
Other literature type . 2024
Data sources: Datacite
linkLink to
shareshareShare
citeCite
addClaim
Please grant OpenAIRE to access and update your ORCID works.
This Research product is the result of merged Research products in OpenAIRE.

You have already added works in your ORCID record related to the merged Research product.
This Research product is the result of merged Research products in OpenAIRE.

You have already added works in your ORCID record related to the merged Research product.
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The significant contribution of stochastic forcing to nonlinear energy transfer in resolvent analysis